A vehicular wheel assembly defines an axis of rotation and includes a wheel having an inner hub, an outer rim, and a plurality of hollow spokes. The outer rim defines an outer circumference. Each hollow spoke of the plurality of hollow spokes extends between the inner hub and the outer rim and includes a wall that at least partially defines a hollow chamber. The outer rim defines a plurality of openings that are each in fluid communication with one of the hollow chambers and each of the openings includes a tuning member.
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10. A tuning member for use in a vehicular wheel assembly comprising:
a body having an inner surface, and outer surface, a first edge and a second edge opposite the first edge;
a first flange portion extending from the inner surface along the first edge of the body;
a second flange portion extending from the second edge at an obtuse angle in relation to the first flange portion;
at least one first tab portion extending from the first edge in a direction opposite the first flange portion;
at least one second tab portion extending substantially parallel to said first tab portion; and
at least one through hole portion in the body, the through hole portion having an axis substantially parallel to said first and second tab portions.
1. A vehicular wheel assembly defining an axis of rotation, the wheel comprising:
an inner hub;
an outer rim defining an outer circumference and an opening, wherein the opening is at least partially defined by a wall;
a tire defining an air cavity with the outer rim;
a spoke extending between the inner hub and the outer rim, the spoke comprises a spoke wall that at least partially defines a hollow chamber that extends to the opening; and a tuning member that obstructs the opening and at least partially defines a through hole that has a smaller cross sectional area than the opening, the hollow chamber of the spoke is in fluid communication with the air cavity by way of the through hole, wherein the tuning member and the hollow chamber at least partially define a helmholtz resonator wherein the tuning member includes a body that includes an inner surface and an outer surface, the body defines the through hole, and a portion of the inner surface of the body engages the wall to at least partially form a sealed perimeter around the opening.
16. A vehicular wheel assembly defining an axis of rotation, the vehicular wheel assembly comprising a wheel, the wheel comprising:
an inner hub;
an outer rim defining an outer circumference; and
a plurality of hollow spokes, each hollow spoke of the plurality of hollow spokes extending between the inner hub and the outer rim; wherein:
each hollow spoke comprises a spoke wall that at least partially defines a hollow chamber;
the outer rim defines a plurality of openings at least partially defined by a wall; and
each of the inner hub, the outer rim, and the plurality of hollow spokes are comprised of a metal material as a one-piece construction;
a plurality of tuning members, each tuning member of the plurality of tuning members comprising:
a body that includes an inner surface and an outer surface, and that defines at least one through hole; wherein each tuning member is coupled with the outer rim at one of the openings such that each of the at least one through holes of each tuning member is in fluid communication with one of the hollow chambers by way of one of the openings and wherein a portion of the inner surface of each tuning member of the plurality of tuning members engages the wall to at least partially form a sealed perimeter around one opening of the plurality of openings.
2. The vehicular wheel assembly of
3. The vehicular wheel assembly of
4. The vehicular wheel assembly of
5. The vehicular wheel assembly of
6. The vehicular wheel assembly of
7. The vehicular wheel assembly of
8. The vehicular wheel assembly of
a second spoke having a second spoke wall that at least partially defines a second hollow chamber, wherein the spoke wall and the second spoke wall of the spoke and second spoke converge so that the hollow chamber and the second hollow chamber of the spoke and second spoke are in fluid communication.
9. The vehicular wheel assembly of
the through hole defines a second diameter; and
the ratio of the second diameter to the first diameter is 1:10 to 1:2.
11. The tuning member of
12. The tuning member of
14. The tuning member of
15. The tuning member of
17. The vehicular wheel assembly of
18. The vehicular wheel assembly of
19. The vehicular wheel assembly of
20. The vehicular wheel assembly of
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This application claims the benefit of U.S. Provisional Application Ser. No. 62/840,998, entitled “VEHICULAR WHEEL HAVING A SPOKE DEFINING A HOLLOW CHAMBER, RESONATOR DEVICES AND VEHICLES INCLUDING SAME” and filed on Apr. 30, 2019, which is expressly incorporated by reference herein in its entirety.
In vehicular wheel assemblies it is generally advantageous to decrease wheel and unsprung mass in general for improvements in efficiency, grip, and response over irregular road surfaces. A reduction in unsprung mass or, more specifically, wheel mass, however, may have some negative effects such as a decrease in isolation of high and mid frequency road noise and vibration. Further, during the operation of a vehicle, the air inside a tire can generate road noise which can resonate through the wheels and into the passenger compartment, thereby disturbing occupants of the vehicle. To attenuate the transmission of road noise and vibrations into the passenger compartment, the wheels may be provided with resonance devices. These conventional resonance devices are oftentimes bulky, expensive, and can adversely affect the mass of the wheels.
In accordance with one aspect, a vehicular wheel assembly defines an axis of rotation and comprises a wheel that includes an inner hub, an outer rim and a plurality of hollow spokes. The outer rim defines an outer circumference. Each hollow spoke of the plurality of hollow spokes extends between the inner hub and the outer rim and comprises a wall that at least partially defines a hollow chamber. The outer rim defines a plurality of openings that are each in fluid communication with at least one of the hollow chambers. Each of the inner hub, the outer rim, and the plurality of hollow spokes may be formed of a metal material as an as-cast one-piece construction.
In accordance with another aspect, a vehicular wheel assembly defines an axis of rotation and comprises a wheel, including an inner hub, an outer rim a plurality of hollow spokes, and a plurality of tuning members. Each hollow spoke of the plurality of hollow spokes extends between the inner hub and the outer rim. Each tuning member of the plurality of tuning members comprises a body that defines at least one through hole and comprises a wall that at least partially defines a hollow chamber. The outer rim defines a plurality of openings that are each in fluid communication with one of the hollow chambers. Each tuning member is releasably or permanently coupled with the outer rim at one of the openings such that each of said at least one through holes of each tuning member is in fluid communication with one of the hollow chambers by way of one of the openings. Each of the inner hub, the outer rim, and the plurality of hollow spokes are formed of a first material. Each tuning member is formed of a second material that may be different from the first material. Each of the openings defines a diameter. Each of said at least one through holes defines a through hole diameter. The ratio of the through hole diameter of each of the tuning members to the diameter of the opening associated with each tuning member may be about 1:10 or more.
In accordance with one aspect, a chamber having a tuning member releasably coupled and in fluid communication with the hollow spoke through the opening is advantageous for tuning the resonance properties of the tuning member and/or hollow chamber.
In accordance with one aspect, a vehicular wheel assembly defines an axis of rotation and comprises a wheel including an inner hub, an outer rim defining an outer circumference, and a plurality of hollow spokes. Each hollow spoke of the plurality of hollow spokes extends between the inner hub and the outer rim, and the outer rim defines a plurality of openings that are each in fluid communication with one of the hollow chambers. The plurality of hollow spokes comprises a first spoke comprising a first wall that defines a first hollow chamber, and a second spoke comprising a second wall that defines a second hollow chamber. The first spoke and the second spoke intersect at a junction such that the first hollow chamber and the second hollow chamber are in fluid communication with each other at the junction, and the junction is disposed between the outer rim and the axis of rotation. Each of the inner hub, the outer rim, and the plurality of hollow spokes may be comprised of a metal material as an as-cast one-piece construction.
Optionally, at least a portion of the junction may is disposed between the inner hub and the outer rim. The junction may be more proximate to the inner hub than the outer rim. The first spoke and the second spoke may be spaced apart at the outer rim portion and converge at the junction such that the first spoke and the second spoke are substantially V-shaped.
Optionally, each of the plurality of openings is configured to receive a tuning member, each tuning member comprising a body that defines at least one through hole, and each tuning member is coupled with the outer rim at one of the plurality of openings such that each of the at least one through holes of each tuning member is in fluid communication with one of the hollow chambers by way of one of the openings. A first opening of the plurality of openings may be in fluid communication with the first spoke, a second opening of the plurality of openings may be in fluid communication with the second spoke, a first tuning member may be installed into the first opening, and a second tuning member may be installed into the second opening, so that the first tuning member, the second tuning member, the first hollow chamber and the second hollow chamber at least partially define a Helmholtz resonator. Each tuning member may comprise a body that includes an inner surface and an outer surface, the body defining the at least one through hole, and a portion of the inner surface of the body engages the wall to at least partially form a sealed perimeter around the opening.
The accompanying drawings, which are incorporated into and constitute a part of this specification, illustrate one or more example aspects of the present disclosure and, together with the detailed description, serve to explain their principles and implementations.
In general, a wheel assembly is provided with a Helmholtz resonator at least partially defined by a hollow chamber defined by a spoke and a tuning member. The tuning member at least partially defines a through hole that is in fluid communication with the hollow chamber.
In connection with the views and examples of
Referring now to
Referring now to
Referring now to
The pressurized chamber 49 is in fluid communication with the hollow chamber 46 of the spoke 36 (e.g., via the through hole 52 of the tuning member 42). The tuning member 42 and the hollow chamber 46 at least partially defined by the spoke 36 at least partially define a Helmholtz resonator that effectively attenuates road noise generated during operation of the vehicle 20. The tuning member 42 may be tuned through variation of any one of a length of the through hole, width of the through hole, volume of the through hole and/or shape (e.g., the through hole 52 can be sized and/or configured relative to the hollow chamber 46) to effectively attenuate the resonance frequencies generated within the pressurized chamber 49 which might otherwise have an adverse effect on road noise.
While not limited as such, Helmholtz resonators can include a neck portion (the portions of the tuning member defining the through hole 52) and a cavity (the hollow chamber 46 at least partially defined by the spoke 36). The resonance frequency of a Helmholtz resonator is dependent on the static pressure in the cavity, the geometry of the neck portion and the volume of the cavity. By altering various geometries of the neck (for example: the diameter, length, and shape) it is possible to alter the range of frequencies which can be effectively attenuated. Based on general, non-limiting principles, the resonance frequency f of a Helmholtz resonator may be found through the following formula (Formula 1):
where c is the speed of sound, s is a cross sectional area of the neck portion (e.g. D2) and v is the volume of the cavity (e.g. hollow chamber 46). R′ in the equation above may be the effective length of the neck which is represented by the following formula (Formula 2):
R′=R+0.3D, (Formula 2)
where R is the actual length of the neck portion and D is a hydraulic diameter of the neck portion. Based on the above principles, the through hole 52 and/or hollow chamber 46 may be tuned to attenuate a range of resonance frequencies generated within the pressurized chamber 49 which might otherwise have an adverse effect on road noise.
As shown in
Referring to
The tuning member 42 can be formed of, but is not limited to, a thermoplastic material, such as polyvinylchloride, for example, an elastomeric material, such as rubber, for example, or any of a variety of suitable alternative non-metallic or metallic materials. The tuning member 42 may further be attached to the outer rim 34 through use of a bonding agent or an adhesive.
Referring again to
As shown in
The wheel 26 may be formed as an as-cast one-piece construction. It will be appreciated that the wheel 26 being described as as-cast should be understood to mean that the wheel 26 is cast by providing a molten metal material (e.g., a castable material), such as an aluminum alloy or steel, into a mold, allowing the molten material to solidify. In some aspects, further processing, such as welding or machining, may not be necessary to form the hollow spokes 36. However, machining may be performed on the as-cast wheel 26 to, for example, refine openings or to remove material to balance the wheel. In a non-limiting example, it is to be appreciated that the tuning members 42 may be installed onto the wheel once the wheel 26 has been cast and has undergone any finishing processes (e.g., CNC machining) that make the wheel 26 ready for use. The tuning members 42 may be held in place though the methods mentioned throughout the disclosure and/or further may be attached to the opening 48 through use of a bonding agent or an adhesive.
Referring to
An alternative aspect of a wheel 126 and a plurality of tuning members 142 is shown in
As shown in
As illustrated in
As illustrated in
The tuning member 142 may define with a hollow chamber 146 a Helmholtz resonator that effectively attenuates road noise generated during operation of the vehicle 20 (
The tuning member 142 and through holes 152 and 153 may be dimensioned based on abovementioned formulas 1 and 2. Further the though holes 152 may be dimensioned using the abovementioned methods and/or other methods to effectively attenuate the resonance frequencies generated within the pressurized chamber 149. Through holes 152 and 153 may alternatively be modified as a single though hole or a plurality of through holes. It is to be appreciated that any of a variety of tuning member and/or through hole arrangements are contemplated to achieve effective resonance frequency attenuation. In a non-limiting example, the holes 152 and 153 can be ovals or any other shape sized to provide damping at the resonance frequency. It is also to be appreciated that a wheel can be provided in any of a variety of suitable arrangements (e.g., spoke arrangements) that facilitate resonance frequency attenuation apart from, or in conjunction with a resonator.
An alternative aspect of a wheel 226 and a plurality of tuning members 242 is shown in
The inner flange 258 may fill a recessed portions 257 and 259 in the wall 244. The outer flange 258 may be contoured to the bead seat 238 or to an upper recessed portion 255 best seen in
As illustrated in
The tuning member 242 and a hollow chamber 246 at least partially define a Helmholtz resonator that effectively attenuates road noise generated during operation of the vehicle 20 (
The tuning member 242 and through holes 252 and 253 may be dimensioned based on abovementioned formulas 1 and 2. Further the though holes 252 may be dimensioned using other methods to effectively attenuate the resonance frequencies generated within the pressurized chamber 249. Through holes 252 may be modified to include a single through hole or a plurality of through holes. It is to be appreciated that any of a variety of tuning member and/or through hole arrangements are contemplated to achieve effective resonance frequency attenuation. In a non-limiting example, the holes 252, 253 may be ovals or any other shape sized to provide damping at the resonance frequency. It is also to be appreciated that a wheel can be provided in any of a variety of suitable arrangements (e.g., spoke arrangements) that facilitate resonance frequency attenuation apart from, or in conjunction with a tuning member.
The foregoing description of various aspects and examples of the invention have been presented for purposes of illustration and description. It is not intended to be exhaustive nor to limit the invention to the forms described. The embodiment(s) illustrated in the figures can, in some instances, be understood to be shown to scale for illustrative purposes. Numerous modifications are possible in light of the above teachings, including a combination of the abovementioned aspects. Some of those modifications have been discussed and others will be understood by those skilled in the art. The various aspects were chosen and described in order to best illustrate the principles of the invention and various aspects as are suited to the particular use contemplated. The scope of the invention is, of course, not limited to the examples or aspects set forth herein, but can be employed in any number of applications and equivalent devices by those of ordinary skill in the art. Rather, it is hereby intended the scope of the invention be defined by the claims appended hereto.
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May 12 2020 | NELSON, JOSEPH | HONDA MOTOR CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 053138 | /0814 |
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